// Copyright (C) 2007-2025  CEA, EDF, OPEN CASCADE
//
// Copyright (C) 2003-2007  OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA
//
// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//

#include "MED_Structures.hxx"
#include "MED_Utilities.hxx"

#include <cstring>

namespace MED
{
  std::string
  GetString(TInt theId,
            TInt theStep,
            const TString& theString)
  {
    const char* aPos = &theString[theId*theStep];
    TInt aSize = std::min(TInt(strlen(aPos)),theStep);
    return std::string(aPos,aSize);
  }

  void
  SetString(TInt theId,
            TInt theStep,
            TString& theString,
            const std::string& theValue)
  {
    TInt aSize = std::min(TInt(theValue.size()+1),theStep);
    char* aPos = &theString[theId*theStep];
    strncpy(aPos,theValue.c_str(),aSize);
  }

  void
  SetString(TInt theId,
            TInt theStep,
            TString& theString,
            const TString& theValue)
  {
    TInt aSize = std::min(TInt(theValue.size()+1),theStep);
    char* aPos = &theString[theId*theStep];
    const char* aValue = &theValue[0];
    strncpy(aPos,aValue,aSize);
  }

  TInt
  GetDimGaussCoord(EGeometrieElement theGeom)
  {
    return theGeom/100;
  }

  TInt
  GetNbRefCoord(EGeometrieElement theGeom)
  {
    return (theGeom%100);
  }

  //---------------------------------------------------------------
  PFloatTimeStampValue
  CastToFloatTimeStampValue(const PTimeStampValueBase& theTimeStampValue)
  {
    return theTimeStampValue;
  }

  PIntTimeStampValue
  CastToIntTimeStampValue(const PTimeStampValueBase& theTimeStampValue)
  {
    return theTimeStampValue;
  }

  //---------------------------------------------------------------
  TInt
  TFamilyInfo
  ::GetAttrId(TInt theId) const
  {
    return myAttrId[theId];
  }

  TInt
  TFamilyInfo
  ::GetAttrVal(TInt theId) const
  {
    return myAttrVal[theId];
  }

  void
  TFamilyInfo
  ::SetAttrId(TInt theId,TInt theVal)
  {
    myAttrId[theId] = theVal;
  }

  void
  TFamilyInfo
  ::SetAttrVal(TInt theId,TInt theVal)
  {
    myAttrVal[theId] = theVal;
  }

  //---------------------------------------------------------------
  TInt
  TElemInfo
  ::GetFamNum(TInt theId) const
  {
    return (*myFamNum)[theId];
  }

  void
  TElemInfo
  ::SetFamNum(TInt theId, TInt theVal)
  {
    (*myFamNum)[theId] = theVal;
    myIsFamNum = eVRAI;
  }

  TInt
  TElemInfo
  ::GetElemNum(TInt theId) const
  {
    return (*myElemNum)[theId];
  }

  void
  TElemInfo
  ::SetElemNum(TInt theId, TInt theVal)
  {
    if ( IsElemNum() )
      (*myElemNum)[theId] = theVal;
  }

  //---------------------------------------------------------------
  TCCoordSlice
  TNodeInfo
  ::GetCoordSlice(TInt theId) const
  {
    TInt aDim = myMeshInfo->GetSpaceDim();
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TCCoordSlice(*myCoord, std::slice(theId*aDim, aDim, 1));
    else
      return TCCoordSlice(*myCoord, std::slice(theId, aDim, aDim));
  }

  TCoordSlice
  TNodeInfo
  ::GetCoordSlice(TInt theId)
  {
    TInt aDim = myMeshInfo->GetSpaceDim();
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TCoordSlice(*myCoord, std::slice(theId*aDim,aDim,1));
    else
      return TCoordSlice(*myCoord, std::slice(theId,aDim,aDim));
  }

  //---------------------------------------------------------------
  TCConnSlice
  TCellInfo
  ::GetConnSlice(TInt theElemId) const
  {
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TCConnSlice(*myConn, std::slice(GetConnDim()*theElemId, GetNbNodes(myGeom), 1));
    else
      return TCConnSlice(*myConn, std::slice(theElemId, GetNbNodes(myGeom), GetConnDim()));
  }

  TConnSlice
  TCellInfo
  ::GetConnSlice(TInt theElemId)
  {
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TConnSlice(*myConn, std::slice(GetConnDim()*theElemId, GetNbNodes(myGeom), 1));
    else
      return TConnSlice(*myConn, std::slice(theElemId, GetNbNodes(myGeom), GetConnDim()));
  }

  //---------------------------------------------------------------
  TInt
  TPolygoneInfo
  ::GetNbConn(TInt theElemId) const
  {
    return (*myIndex)[theElemId + 1] - (*myIndex)[theElemId];
  }

  TCConnSlice
  TPolygoneInfo
  ::GetConnSlice(TInt theElemId) const
  {
    return TCConnSlice(*myConn, std::slice((*myIndex)[theElemId] - 1, GetNbConn(theElemId), 1));
  }

  TConnSlice
  TPolygoneInfo
  ::GetConnSlice(TInt theElemId)
  {
    return TConnSlice(*myConn, std::slice((*myIndex)[theElemId] - 1, GetNbConn(theElemId), 1));
  }

  //---------------------------------------------------------------
  TInt
  TPolyedreInfo
  ::GetNbFaces(TInt theElemId) const
  {
    return (*myIndex)[theElemId+1] - (*myIndex)[theElemId];
  }

  TInt
  TPolyedreInfo
  ::GetNbNodes(TInt theElemId) const
  {
    TInt aNbNodes = 0;
    TInt aNbFaces = GetNbFaces(theElemId);
    TInt aStartFaceId = (*myIndex)[theElemId] - 1;
    for(TInt aFaceId = 0; aFaceId < aNbFaces; aFaceId++, aStartFaceId++){
      TInt aCurrentId = (*myFaces)[aStartFaceId];
      TInt aDiff = (*myFaces)[aStartFaceId + 1] - aCurrentId;
      aNbNodes += aDiff;
    }
    return aNbNodes;
  }

  TCConnSliceArr
  TPolyedreInfo
  ::GetConnSliceArr(TInt theElemId) const
  {
    TInt aNbFaces = GetNbFaces(theElemId);
    TCConnSliceArr aConnSliceArr(aNbFaces);
    TInt aStartFaceId = (*myIndex)[theElemId] - 1;
    for(TInt aFaceId = 0; aFaceId < aNbFaces; aFaceId++, aStartFaceId++){
      TInt aCurrentId = (*myFaces)[aStartFaceId];
      TInt aDiff = (*myFaces)[aStartFaceId + 1] - aCurrentId;
      aConnSliceArr[aFaceId] =
        TCConnSlice(*myConn, std::slice(aCurrentId - 1, aDiff, 1));
    }
    return aConnSliceArr;
  }

  TConnSliceArr
  TPolyedreInfo
  ::GetConnSliceArr(TInt theElemId)
  {
    TInt aNbFaces = GetNbFaces(theElemId);
    TConnSliceArr aConnSliceArr(aNbFaces);
    TInt aStartFaceId = (*myIndex)[theElemId] - 1;
    for(TInt aFaceId = 0; aFaceId < aNbFaces; aFaceId++, aStartFaceId++){
      TInt aCurrentId = (*myFaces)[aStartFaceId];
      TInt aDiff = (*myFaces)[aStartFaceId + 1] - aCurrentId;
      aConnSliceArr[aFaceId] =
        TConnSlice(*myConn, std::slice(aCurrentId - 1, aDiff, 1));
    }
    return aConnSliceArr;
  }

  //---------------------------------------------------------------
  TMeshValueBase
  ::TMeshValueBase():
    myNbElem(0),
    myNbComp(0),
    myNbGauss(0),
    myStep(0)
  {}

  void
  TMeshValueBase
  ::Allocate(TInt theNbElem,
             TInt theNbGauss,
             TInt theNbComp,
             EModeSwitch theMode)
  {
    myModeSwitch = theMode;

    myNbElem = theNbElem;
    myNbGauss = theNbGauss;
    myNbComp = theNbComp;

    myStep = theNbComp*theNbGauss;
  }

  size_t
  TMeshValueBase
  ::GetSize() const
  {
    return myNbElem * myStep;
  }

  size_t
  TMeshValueBase
  ::GetNbVal() const
  {
    return myNbElem * myNbGauss;
  }

  size_t
  TMeshValueBase
  ::GetNbGauss() const
  {
    return myNbGauss;
  }

  size_t
  TMeshValueBase
  ::GetStep() const
  {
    return myStep;
  }

  //---------------------------------------------------------------
  TInt
  TProfileInfo
  ::GetElemNum(TInt theId) const
  {
    return (*myElemNum)[theId];
  }

  void
  TProfileInfo
  ::SetElemNum(TInt theId,TInt theVal)
  {
    (*myElemNum)[theId] = theVal;
  }

  //---------------------------------------------------------------
  bool
  TGaussInfo::TLess
  ::operator()(const TKey& theLeft, const TKey& theRight) const
  {
    EGeometrieElement aLGeom = boost::get<0>(theLeft);
    EGeometrieElement aRGeom = boost::get<0>(theRight);
    if(aLGeom != aRGeom)
      return aLGeom < aRGeom;

    const std::string& aLStr = boost::get<1>(theLeft);
    const std::string& aRStr = boost::get<1>(theRight);
    return aLStr < aRStr;
  }

  bool
  TGaussInfo::TLess
  ::operator()(const TGaussInfo& theLeft, const TGaussInfo& theRight) const
  {
    if(!&theLeft) // address of reference can be assumed always non-null by compiler - OK
      return true;

    if(!&theRight) //address of reference can be assumed always non-null by compiler - OK
      return false;

    if(theLeft.myGeom != theRight.myGeom)
      return theLeft.myGeom < theRight.myGeom;

    if(theLeft.myRefCoord != theRight.myRefCoord)
      return theLeft.myRefCoord < theRight.myRefCoord;

    return theLeft.myGaussCoord < theRight.myGaussCoord;
  }

  TCCoordSlice
  TGaussInfo
  ::GetRefCoordSlice(TInt theId) const
  {
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TCCoordSlice(myRefCoord,std::slice(theId*GetDim(),GetDim(),1));
    else
      return TCCoordSlice(myRefCoord,std::slice(theId,GetDim(),GetDim()));
  }

  TCoordSlice
  TGaussInfo
  ::GetRefCoordSlice(TInt theId)
  {
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TCoordSlice(myRefCoord,std::slice(theId*GetDim(),GetDim(),1));
    else
      return TCoordSlice(myRefCoord,std::slice(theId,GetDim(),GetDim()));
  }

  TCCoordSlice
  TGaussInfo
  ::GetGaussCoordSlice(TInt theId) const
  {
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TCCoordSlice(myGaussCoord,std::slice(theId*GetDim(),GetDim(),1));
    else
      return TCCoordSlice(myGaussCoord,std::slice(theId,GetDim(),GetDim()));
  }

  TCoordSlice
  TGaussInfo
  ::GetGaussCoordSlice(TInt theId)
  {
    if(GetModeSwitch() == eFULL_INTERLACE)
      return TCoordSlice(myGaussCoord,std::slice(theId*GetDim(),GetNbGauss(),1));
    else
      return TCoordSlice(myGaussCoord,std::slice(theId,GetNbGauss(),GetDim()));
  }

  //---------------------------------------------------------------
  TInt
  TTimeStampInfo
  ::GetNbGauss(EGeometrieElement theGeom) const
  {
    TGeom2NbGauss::const_iterator anIter = myGeom2NbGauss.find(theGeom);
    if(anIter == myGeom2NbGauss.end())
      return 1;//EXCEPTION(runtime_error,"TTimeStampInfo::GetNbGauss - myGeom2NbGauss.find(theGeom) fails");

    return anIter->second;
  }

  //---------------------------------------------------------------
  // TGrilleInfo structure methods
  //---------------------------------------------------------------
  const EGrilleType&
  TGrilleInfo
  ::GetGrilleType() const
  {
    return myGrilleType;
  }

  EGrilleType
  TGrilleInfo
  ::GetGrilleType()
  {
    return myGrilleType;
  }

  void
  TGrilleInfo
  ::SetGrilleType(EGrilleType theGrilleType)
  {
    myGrilleType = theGrilleType;
  }

  const
  TIndexes&
  TGrilleInfo
  ::GetMapOfIndexes() const
  {
    return myIndixes;
  }

  TIndexes&
  TGrilleInfo
  ::GetMapOfIndexes()
  {
    return myIndixes;
  }

  const
  TFloatVector&
  TGrilleInfo
  ::GetIndexes(TInt theAxisNumber) const
  {
    TIndexes::const_iterator aIter=myIndixes.find(theAxisNumber);
    if(aIter==myIndixes.end())
      EXCEPTION(std::runtime_error, "const TGrilleInfo::GetIndexes - myIndixes.find(theAxisNumber); fails");
    return aIter->second;
  }

  TFloatVector&
  TGrilleInfo
  ::GetIndexes(TInt theAxisNumber)
  {
    TIndexes::iterator aIter=myIndixes.find(theAxisNumber);
    if(aIter==myIndixes.end())
      EXCEPTION(std::runtime_error, "TGrilleInfo::GetIndexes - myIndixes.find(theAxisNumber="<<theAxisNumber<<"); fails");
    return aIter->second;
  }

  TInt
  TGrilleInfo
  ::GetNbIndexes(TInt theAxisNumber)
  {
    const TFloatVector& aVector=GetIndexes(theAxisNumber);
    return aVector.size();
  }

  TInt
  TGrilleInfo
  ::GetNbNodes()
  {
    TInt nbNodes=0;
    TInt aDim = myMeshInfo->GetDim();
    for(int i=0;i<aDim;i++)
      if(nbNodes == 0)
        nbNodes = this->GetGrilleStructure()[i];
      else
        nbNodes = nbNodes*this->GetGrilleStructure()[i];

    return nbNodes;
  }

  TInt
  TGrilleInfo
  ::GetNbCells()
  {
    TInt nbCells=0;
    TInt aDim = myMeshInfo->GetDim();
    for(int i=0;i<aDim;i++)
      if(nbCells == 0)
        nbCells = this->GetGrilleStructure()[i]-1;
      else
        nbCells = nbCells*(this->GetGrilleStructure()[i]-1);
    return nbCells;
  }

  TInt
  TGrilleInfo
  ::GetNbSubCells()
  {
    TInt nb=0;
    TInt aDim = myMeshInfo->GetDim();
    switch (aDim) {
    case 3:
      nb =
        (myGrilleStructure[0]  ) * (myGrilleStructure[1]-1) * (myGrilleStructure[2]-1) +
        (myGrilleStructure[0]-1) * (myGrilleStructure[1]  ) * (myGrilleStructure[2]-1) +
        (myGrilleStructure[0]-1) * (myGrilleStructure[1]-1) * (myGrilleStructure[2]  );
      break;
    case 2:
      nb =
        (myGrilleStructure[0]  ) * (myGrilleStructure[1]-1) +
        (myGrilleStructure[0]-1) * (myGrilleStructure[1]  );
      break;
    }
    return nb;
  }

  EGeometrieElement
  TGrilleInfo
  ::GetGeom()
  {
    TInt aDim = myMeshInfo->GetDim();
    switch(aDim){
    case 1:
      return eSEG2;
    case 2:
      return eQUAD4;
    case 3:
      return eHEXA8;
    default:
      return eNONE;
    }
  }

  EGeometrieElement
  TGrilleInfo
  ::GetSubGeom()
  {
    TInt aDim = myMeshInfo->GetDim();
    switch(aDim){
    case 2:
      return eSEG2;
    case 3:
      return eQUAD4;
    }
    return eNONE;
  }

  EEntiteMaillage
  TGrilleInfo
  ::GetEntity()
  {
    return eMAILLE;
  }

  EEntiteMaillage
  TGrilleInfo
  ::GetSubEntity()
  {
    TInt aDim = myMeshInfo->GetDim();
    switch(aDim){
    case 2:
      return eARETE;
    case 3:
      return eFACE;
    }
    return EEntiteMaillage(-1);
  }

  const
  TIntVector&
  TGrilleInfo
  ::GetGrilleStructure() const
  {
    return myGrilleStructure;
  }

  TIntVector
  TGrilleInfo
  ::GetGrilleStructure()
  {
    return myGrilleStructure;
  }

  void
  TGrilleInfo
  ::SetGrilleStructure(TInt theAxis,TInt theNb)
  {
    if(theAxis >= 0 && theAxis <=2 && theNb >= 0)
      myGrilleStructure[theAxis]=theNb;
  }

  const
  TNodeCoord&
  TGrilleInfo
  ::GetNodeCoord() const
  {
    return myCoord;
  }

  TNodeCoord&
  TGrilleInfo
  ::GetNodeCoord()
  {
    return myCoord;
  }

  TNodeCoord
  TGrilleInfo
  ::GetCoord(TInt theId)
  {
    TNodeCoord aCoord;
    TInt aDim       = myMeshInfo->GetDim();
    TInt aNbNodes   = this->GetNbNodes();
    aCoord.resize(aDim);

    if(theId >= aNbNodes)
      EXCEPTION(std::runtime_error, "TGrilleInfo::GetCoord - theId out of range");

    if(myGrilleType == eGRILLE_STANDARD){
      switch(aDim){
      case 3:
        aCoord[2] = myCoord[aDim*theId+2];
        // fall through
      case 2:
        aCoord[1] = myCoord[aDim*theId+1];
        // fall through
      case 1:
        aCoord[0] = myCoord[aDim*theId];
        break;
      }
    } else {

      TFloatVector aVecX  = this->GetIndexes(0);
      TInt nbIndxX        = this->GetNbIndexes(0);

      switch(aDim){
      case 1:{
        aCoord[0] = aVecX[theId];
        break;
      }
      case 2:{
        TFloatVector aVecY = this->GetIndexes(1);
        TInt i,j,k;
        i = j = k = 0;
        i = theId % nbIndxX;
        j = theId / nbIndxX;
        if(myGrilleType == eGRILLE_CARTESIENNE){
          aCoord[0] = aVecX[i];
          aCoord[1] = aVecY[j];
        } else { // eGRILLE_POLAIRE (cylindrical)
          aCoord[0] = aVecX[i] * cos(aVecY[j]);
          aCoord[1] = aVecX[i] * sin(aVecY[j]);
        }
        break;
      }
      case 3:{
        TFloatVector aVecY = this->GetIndexes(1);
        TInt nbIndxY       = this->GetNbIndexes(1);
        TFloatVector aVecZ = this->GetIndexes(2);
        TInt i,j,k;
        i = j = k = 0;

        i = theId % nbIndxX;
        j = (theId / nbIndxX) % nbIndxY;
        k = theId / (nbIndxX*nbIndxY);

        if(myGrilleType == eGRILLE_CARTESIENNE){
          aCoord[0] = aVecX[i];
          aCoord[1] = aVecY[j];
          aCoord[2] = aVecZ[k];
        } else { // eGRILLE_POLAIRE (cylindrical)
          aCoord[0] = aVecX[i] * cos(aVecY[j]);
          aCoord[1] = aVecX[i] * sin(aVecY[j]);
          aCoord[2] = aVecZ[k];
        }

        break;
      }
      }
    }

    return aCoord;
  }

  TIntVector
  TGrilleInfo
  ::GetConn(TInt theId, const bool isSub)
  {
    TIntVector anIndexes;
    TInt aDim = myMeshInfo->GetDim();

    TInt idx;
    TInt iMin, jMin, kMin, iMax, jMax, kMax;
    TInt loc[3];

    loc[0] = loc[1] = loc[2] = 0;
    iMin = iMax = jMin = jMax = kMin = kMax = 0;

    switch(aDim) {
    case 3:
      {
        TInt nbX = this->GetGrilleStructure()[0];
        TInt nbY = this->GetGrilleStructure()[1];
        TInt nbZ = this->GetGrilleStructure()[2];
        TInt d01 = nbX*nbY, dX = 1, dY = 1, dZ = 1;
        if ( isSub )
          {
            if ( theId < nbX * (nbY-1) * (nbZ-1))
              { // face is normal to X axis
                dX = 0;
              }
            else if ( theId < nbX * (nbY-1) * (nbZ-1) + (nbX-1) * nbY * (nbZ-1))
              {  // face is normal to Y axis
                theId -= nbX * (nbY-1) * (nbZ-1);
                dY = 0;
              }
            else
              {
                theId -= nbX * (nbY-1) * (nbZ-1) + (nbX-1) * nbY * (nbZ-1);
                dZ = 0;
              }
          }
        //else
        {
          iMin = theId % (nbX - dX);
          jMin = (theId / (nbX - dX)) % (nbY - dY);
          kMin = theId / ((nbX - dX) * (nbY - dY));
          iMax = iMin+dX;
          jMax = jMin+dY;
          kMax = kMin+dZ;
        }
        for (loc[2]=kMin; loc[2]<=kMax; loc[2]++)
          for (loc[1]=jMin; loc[1]<=jMax; loc[1]++)
            for (loc[0]=iMin; loc[0]<=iMax; loc[0]++)
              {
                idx = loc[0] + loc[1]*nbX + loc[2]*d01;
                anIndexes.push_back(idx);
              }
        break;
      }
    case 2:
      {
        TInt nbX = this->GetGrilleStructure()[0];
        TInt nbY = this->GetGrilleStructure()[1];
        TInt dX = 1, dY = 1;
        if ( isSub )
          {
            if ( theId < nbX * (nbY-1))
              { // edge is normal to X axis
                dX = 0;
              }
            else
              {
                theId -= nbX * (nbY-1);
                dY = 0;
              }
          }
        iMin = theId % (nbX-dX);
        jMin = theId / (nbX-dX);
        iMax = iMin+dX;
        jMax = jMin+dY;
        for (loc[1]=jMin; loc[1]<=jMax; loc[1]++)
          for (loc[0]=iMin; loc[0]<=iMax; loc[0]++)
            {
              idx = loc[0] + loc[1]*nbX;
              anIndexes.push_back(idx);
            }
        break;
      }
    case 1:
      {
        iMin = theId;
        for (loc[0]=iMin; loc[0]<=iMin+1; loc[0]++)
          {
            idx = loc[0];
            anIndexes.push_back(idx);
          }
        break;
      }
    }

    return anIndexes;
  }

  TInt
  TGrilleInfo
  ::GetFamNumNode(TInt theId) const
  {
    return myFamNumNode[theId];
  }

  void
  TGrilleInfo
  ::SetFamNumNode(TInt theId,TInt theVal)
  {
    myFamNumNode[theId] = theVal;
  }

  TInt
  TGrilleInfo
  ::GetFamNum(TInt theId) const
  {
    return myFamNum[theId];
  }

  void
  TGrilleInfo
  ::SetFamNum(TInt theId,TInt theVal)
  {
    myFamNum[theId] = theVal;
  }

  TInt
  TGrilleInfo
  ::GetFamSubNum(TInt theId) const
  {
    return myFamSubNum[theId];
  }

  void
  TGrilleInfo
  ::SetFamSubNum(TInt theId,TInt theVal)
  {
    myFamSubNum[theId] = theVal;
  }
}
